Flux-gradient relationships for turbulent dispersion over complex terrain

F. Tampieri; U. Giostra; F. Trombetti; D. Anfossi; E. Ferrero; G. Tinarelli

doi:10.5194/npg-2-89-1995

Flux-gradient relationships for turbulent dispersion over complex terrain

F. Tampieri
, U. Giostra
, F. Trombetti
, D. Anfossi
, E. Ferrero
, G. Tinarelli

Research output: Contribution to journal › Article › peer-review

Abstract

The transfer of a passive tracer in inhomogeneous turbulent flow is investigated. Starting from Lumley's constitutive equation, we derived an expression for the ratio between the effective eddy diffusivity K and eddy diffusivity K as a function of three length scales characterizing the local turbulence structure, flux variations and turbulence inhomogeneities. The theoretical predictions for the one-dimensional case of inhomogeneous symmetric turbulence were validated through a comparison with the numerical results of a Lagrangian particle model simulating a wind tunnel experiment of dispersion in the lee of an idealized two-dimensional hill. A qualitative agreement is reached between the theoretical evaluation of K and the value obtained from the numerical simulation.

Original language	English
Pages (from-to)	89-100
Number of pages	12
Journal	Nonlinear Processes in Geophysics
Volume	2
Issue number	2
DOIs	https://doi.org/10.5194/npg-2-89-1995
Publication status	Published - 1995
Externally published	Yes

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title = "Flux-gradient relationships for turbulent dispersion over complex terrain",

abstract = "The transfer of a passive tracer in inhomogeneous turbulent flow is investigated. Starting from Lumley's constitutive equation, we derived an expression for the ratio between the effective eddy diffusivity K and eddy diffusivity K as a function of three length scales characterizing the local turbulence structure, flux variations and turbulence inhomogeneities. The theoretical predictions for the one-dimensional case of inhomogeneous symmetric turbulence were validated through a comparison with the numerical results of a Lagrangian particle model simulating a wind tunnel experiment of dispersion in the lee of an idealized two-dimensional hill. A qualitative agreement is reached between the theoretical evaluation of K and the value obtained from the numerical simulation.",

author = "F. Tampieri and U. Giostra and F. Trombetti and D. Anfossi and E. Ferrero and G. Tinarelli",

year = "1995",

doi = "10.5194/npg-2-89-1995",

language = "English",

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T1 - Flux-gradient relationships for turbulent dispersion over complex terrain

AU - Tampieri, F.

AU - Giostra, U.

AU - Trombetti, F.

AU - Anfossi, D.

AU - Ferrero, E.

AU - Tinarelli, G.

PY - 1995

Y1 - 1995

N2 - The transfer of a passive tracer in inhomogeneous turbulent flow is investigated. Starting from Lumley's constitutive equation, we derived an expression for the ratio between the effective eddy diffusivity K and eddy diffusivity K as a function of three length scales characterizing the local turbulence structure, flux variations and turbulence inhomogeneities. The theoretical predictions for the one-dimensional case of inhomogeneous symmetric turbulence were validated through a comparison with the numerical results of a Lagrangian particle model simulating a wind tunnel experiment of dispersion in the lee of an idealized two-dimensional hill. A qualitative agreement is reached between the theoretical evaluation of K and the value obtained from the numerical simulation.

AB - The transfer of a passive tracer in inhomogeneous turbulent flow is investigated. Starting from Lumley's constitutive equation, we derived an expression for the ratio between the effective eddy diffusivity K and eddy diffusivity K as a function of three length scales characterizing the local turbulence structure, flux variations and turbulence inhomogeneities. The theoretical predictions for the one-dimensional case of inhomogeneous symmetric turbulence were validated through a comparison with the numerical results of a Lagrangian particle model simulating a wind tunnel experiment of dispersion in the lee of an idealized two-dimensional hill. A qualitative agreement is reached between the theoretical evaluation of K and the value obtained from the numerical simulation.

UR - https://www.scopus.com/pages/publications/84984404104

U2 - 10.5194/npg-2-89-1995

DO - 10.5194/npg-2-89-1995

M3 - Article

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VL - 2

SP - 89

EP - 100

JO - Nonlinear Processes in Geophysics

JF - Nonlinear Processes in Geophysics

IS - 2

ER -

Flux-gradient relationships for turbulent dispersion over complex terrain

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